An Onsager Singularity Theorem for Leray Solutions of Incompressible Navier-Stokes

Abstract

We study in the inviscid limit the global energy dissipation of Leray solutions of incompressible Navier-Stokes on the torus Td, assuming that the solutions have norms for Besov space Bσ,∞3( Td), σ∈ (0,1], that are bounded in the L3-sense in time, uniformly in viscosity. We establish an upper bound on energy dissipation of the form O((3σ-1)/(σ+1)), vanishing as 0 if σ>1/3. A consequence is that Onsager-type "quasi-singularities" are required in the Leray solutions, even if the total energy dissipation vanishes in the limit 0, as long as it does so sufficiently slowly. We also give two sufficient conditions which guarantee the existence of limiting weak Euler solutions u which satisfy a local energy balance with possible anomalous dissipation due to inertial-range energy cascade in the Leray solutions. For σ∈ (1/3,1) the anomalous dissipation vanishes and the weak Euler solutions may be spatially "rough" but conserve energy.